61. Magnetic Properties|KLUWER Academic Publishers Characterization and Simulation Volume 3. Processing of Advanced Magnetic Materials Volume 4. properties and Applications of Advanced Magnetic Materials Yi Liu http://www.wkap.nl/home/topics/N/6/2/?sort=P

62. Magnetic Properties Of Thin Films Of Co And Of (CoPt) Superstructures On Pt(100) Magnetic properties of thin films of Co and of (CoPt) superstructures on Pt(100) and Pt(111). U. Pustogowa and J. Zabloudil. Center http://psi-k.dl.ac.uk/TMR1/weinberger.html

Magnetic properties of thin films of Co and of (CoPt) superstructures on Pt(100) and Pt(111) U. Pustogowa and J. Zabloudil Center for Computational Materials Science, Vienna, Austria C. Uiberacker, C. Blaas, and P. Weinberger Institut für Technische Elektrochemie und Festkörperchemie, Technische Universität Wien, Vienna, Austria L. Szunyogh Center for Computational Materials Science, Vienna, Austria and Department of Theoretical Physics, Technical University Budapest, Budapest, Hungary C. B. Sommers Laboratoire de Physique des Solides, Université de Paris-Sud, Orsay, France The magnetic properties of Co n /Pt(100), Co n /Pt(111), (Co Pt n /Pt(100), (CoPt) n /Pt(100) and (CoPt) n /Pt(111), n 15, are investigated using the fully relativistic spin-polarized Screened Korringa-Kohn-Rostoker method. It is found that only the artificial superstructures (CoPt) n /Pt(100) and (CoPt) n /Pt(111) show a perpendicular magnetic anisotropy beyond n=10. For the free surfaces of Co on Pt in the case of the (100) orientation a multiple reorientation transition below n=7 is found, while along (111) such a transition is predicted at about 4 layers of Co. For the homogeneous, statistically disordered alloy Co Pt on Pt(100) the orientation of the magnetization remains in-plane for all n investigated. A comparison to experiment yields an interesting insight into aspects of order and disorder, surface segregation and phase separation frequently encountered in experimental studies of perpendicular magnetism in the Co/Pt system.

63. Synthesis And Magnetic Properties Of Nanoscale Bimetallic Co1Rh1 Particles New J. Phys. 4 (October 2002) 77. Synthesis and magnetic properties of nanoscale bimetallic Co 1 Rh 1 particles. D Zitoun 1 , C Amiens http://www.iop.org/EJ/abstract/1367-2630/4/1/377

@import url(http://ej.iop.org/style/nu/NJP4.css); Journals sitemap: IOP home page IOP online services EJs HOME JOURNAL HOME   - Editorial information   - Scope   - Editorial board   - Submit an article   - Request sample copy   - Article charge   - Associate members   - Focus issues EJS EXTRA   - IOP Select   - IOP Physics Reviews   - BEC Matters! SEARCH   - Content finder   - Default searches AUTHORS   - Submit an article   - Status enquiry   - Get LaTeX class file   - Classification schemes   - Scope   - Editorial board REFEREES   - Submit referee report   - Become a referee   - Update personal details   - Classification schemes   - Scope   - Editorial board LIBRARIANS   - Register your institution   - Pricing and ordering   - Library branding   - How to link to IOP journals   - Librarian help USER OPTIONS   - Create account   - Lost password Login Create account Alerts Contact us ... Table of contents New J. Phys. (October 2002) 77 Synthesis and magnetic properties of nanoscale bimetallic Co Rh particles D Zitoun C Amiens B Chaudret M Respaud ... P Lecante and M-J Casanove Laboratoire de Chimie de Coordination-CNRS, 205 Route de Narbonne, 31077 Toulouse Cedex 04, France

64. Nanoscal Particles Structure and Magnetic properties of Organic/Inorganic Nanoscale Particles. About the Project The recent development of biocompatible http://www.biophysics.uwa.edu.au/BiomagNet/nanoscale_particles.html

Project: Biomagnetics main page Effects of magnetic fields on brain waves Iron biomineralisation in humans Iron overload diseases Magnetic particle biosensors MRI in iron-overload diseases Nanoscale particles Small particle magnetism Structure and Magnetic Properties of Organic/Inorganic Nanoscale Particles About the Project: The recent development of biocompatible, functionalized ferrofluids and ferromagnetic particles has led to a range of new biomedical and diagnostic applications e.g. [1-4]. New studies utilizing these particles and ferrofluids in unique ways are continually appearing in the scientific literature and there are now many companies which produce these products both for research and clinical applications. In addition to synthesizing ferrimagnetic nanoparticles, we have been developing methods for synthesizing low-moment superparamagnetic rod-like particles with diameters of about 6nm and lengths of up to several hundred nanometres [6, 7]. These particles are analogous to ferritin References: [2] Halbreich, J. Roger, J.N. Pons, D. Geldwerth, M.F. Da Silva, M. Roudier, and J.C. Bacri, Biochimie 80 (1998) 379.

65. Session Y26 - Materials Theory Magnetic Properties And Phenomena Session Y26 Materials Theory Magnetic properties and Phenomena III. However, Ta has deleterious effects on the magnetic properties. http://www.eps.org/aps/meet/MAR00/baps/abs/S9050.html

66. Session A28 - Focus Session Magnetic Nanoparticles I. the ferromagnet. A28.002 Size Effect of Transport and Magnetic properties in Co/C60 Nanogranular Thin Films. Haiqian Wang, Jianguo http://www.eps.org/aps/meet/MAR03/baps/abs/S280.html

67. Magnetic Properties And Magnetostructural Phase Transitions In Ni2+xMn1-xGa Shap Title Magnetic properties and magnetostructural phase transitions in Ni2+xMn1xGa shape memory alloys Authors Khovailo, VV; Novosad, V.; Takagi, T.; Filippov http://adsabs.harvard.edu/abs/2004cond.mat..5134K

NASA ADS ArXiv Preprints Abstract Service Find Similar Abstracts (with default settings below ArXiv Preprint (see Abstract Preferences Translate Abstract Title: Magnetic properties and magnetostructural phase transitions in Ni2+xMn1-xGa shape memory alloys Authors: Khovailo, V. V. Novosad, V. Takagi, T. Filippov, D. A. ... Vasilev, A. N. Journal: eprint arXiv:cond-mat/0405134 Publication Date: Origin: ARXIV Keywords: Materials Science Comment: 7 pages, 8 figures Bibliographic Code: 2004cond.mat..5134K Abstract Bibtex entry for this abstract Custom formatted entry for this abstract (see Preferences) Find Similar Abstracts: Use: Authors Title Keywords (in text query field) Abstract Text Return: Query Results Return items starting with number Query Form Database: Astronomy/Planetary Instrumentation Physics/Geophysics ArXiv Preprints NASA ADS Homepage ADS Sitemap Query Form Preferences ... FAQ

68. Meteorites And Magnetism The record of these magnetic events can be observed during laboratory studies of meteorites found on the Earth. Different terrestrial http://www.volny.cz/tomkohout/meteo/

In early solar system history there are several electromagnetic processes expected that may be capable of magnetizing the primitive solid particles condensating from the Solar Nebula. The record of these magnetic events can be observed during laboratory studies of meteorites found on the Earth. Different terrestrial processes can affect the magneto mineralogy, can cause changes in magnetic parameters, and can overprint the primary magnetic record. The effect of surface heating (when falling through the atmosphere) was the subject of the study with the Murchison meteorite. Using the Allende meteorite we studied the effect of the shock pressure generated by the friction of the atmosphere during the meteorite fall. Some of the meteorites are found several days after the fall, some of them are deposited in the desert or on the Antarctic ice for thousands of years. Most of them contain visible traces of terrestrial oxidation and weathering The project is a part of Tomas Kohout 's Ph.D. thesis (graduate student at Department of Applied Geophysics, Faculty of Natural Sciences, Charles University, Prague, Czech Republic and graduate student at Division of Geophysics, Department of Physical Sciences, University of Helsinki, Helsinki, Finland) and is based on existing collaboration among following institutions:

69. Metallomesogens And Metallopolymers Synthesis and characterization of some nickel(II) containing polymers with unexpected cooperative magnetic properties R. Werner, K. Falk, S. Ostrovsky, W http://kondmat.pc.chemie.tu-darmstadt.de/pubmetal.htm

Metallomesogens and Metallopolymers Synthesis of Liquid-Crystalline Adducts of Lanthanide -Diketonates with some Lewis Bases Yu.G. Galyametdinov, O.A. Turanova, Wen Wan, A.A. Knyazev, and W. Haase Doklady Chemistry Enhanced conductivity and dielectric absorption in discotic liquid crystalline columnar phases of vanadyl complexes W. Haase, D. Kilian, M. A. Athanassopoulou, D. Knawby, T. M. Swager, S. Wrobel Liq. Cryst. First Example of Coexistence of Thermal Spin Transition and Liquid-Crystal Properties Angew. Chem. Probing the Magnetic Anisotropy of Lanthanide-containing Metallomesogenes by Luminescence Spectroscopy Chem. Phys. Chem. Anisotropic molecular magnetic materials based on liquid-crystalline lanthanide complexes Metallopolymers with Schiff base side chains. Synthesis and characterization of some nickel(II) containing polymers with unexpected cooperative magnetic properties R. Werner, K. Falk, S. Ostrovsky, W. Haase Macromol. Chem. Phys. 3-Dimensional Magnetic Ordering In Manganese(III)-Porphyrin-TCNE-Complexes K. Falk, M. Balanda, Z. Tomkowicz, F. Mascarenhas, J. Schilling, P. Klavins, W. Haase

70. [cond-mat/0405134] Magnetic Properties And Magnetostructural Phase Transitions I GMT (143kb) Magnetic properties and magnetostructural phase transitions in Ni2+xMn1xGa shape memory alloys. Authors VV Khovailo http://arxiv.org/abs/cond-mat/0405134

Condensed Matter, abstract cond-mat/0405134 From: Vladimir V. Khovailo [ view email ] Date: Fri, 7 May 2004 07:04:46 GMT (143kb) Magnetic properties and magnetostructural phase transitions in Ni2+xMn1-xGa shape memory alloys Authors: V.V. Khovailo V. Novosad T. Takagi D.A. Filippov ... A.N. Vasilev Comments: 7 pages, 8 figures Subj-class: Materials Science Full-text: PostScript PDF , or Other formats References and citations for this submission: CiteBase (autonomous citation navigation and analysis) Which authors of this paper are endorsers? Links to: arXiv cond-mat find abs

71. Structure And Magnetic Properties Of Thin Films Structure and magnetic properties of ultrathin films http://www.mpi-halle.mpg.de/~kuch/Films.htm

Structure and magnetic properties of ultrathin films Ultrathin Fe films on Cu Au Ultrathin FeMn films on Cu(001) Magnetic coupling in Co-FeMn bilayers ... See photographs of the group members Ultrathin Fe films on Cu Au fcc Fe is one of the materials with the most interesting interplay between structural and magnetic properties. It can be stabilized by pseudomorphic growth on suitable substrates. Ultrathin fcc Fe films have been studied on Cu(001) and Cu Au(001) single crystal surfaces. Here we show how the structural and magnetic properties develop when grown on Cu Au (001), which exhibits a lattice constant in between that of Cu and Cu Au. More... Ultrathin FeMn films on Cu(001) An important prerequisite for studying the magnetic coupling across the interface between a ferromagnetic and an antiferromagnetic ultrathin film is the preparation of single-crystalline antiferromagnetic films with well-defined structural and interface properties. FeMn is an ideal candidate for such studies because of its low lattice misfit to Cu (0.4%). We investigated the growth and structure of FeMn/Cu(001) and found that it grows layer-by-layer, showing a virtually unstrained fcc structure and low surface roughness. More...

72. Record Of Middle Pleistocene Climate Change From Buck Lake, Cascade Range, South Comparison of systematic variations in sediment magnetic properties to changes in pollen assemblages in middle Pleistocene lake sediments from Buck Lake http://www.gsajournals.org/gsaonline/?request=get-abstract&doi=10.1130/0016-7606

73. Magnetic Layered Materials Building on our ability to manipulate the magnetic properties of atoms in twodimensions 1-5, we have turned our synthesis efforts to address an important http://web.mit.edu/chemistry/dgn/www/research/frustration.html

B uilding on our ability to manipulate the magnetic properties of atoms in two-dimensions , we have turned our synthesis efforts to address an important problem in condensed matter physics - the unusual physics that result from the placement of spins on a low dimensional magnetically frustrated lattice. A kagomé lattice, which is composed of vertex sharing triangles, presents an ideal construct for studying this problem in magnetism. We are exploring jarosite compounds of the formula AM O(OH) (SO (A = monovalent ion, M = magnetic trivalent ion), which have been long recognized as ideal model kagomé lattices. M (OH) triangles (panel (a)) are linked at their corners to form the triangular kagomé lattice in a 2-dimensional hexagonal network (panel (b)). The sulfate capping groups alternately point up and down about the hexagonal network. The kagomé layers are separated by A ions (panel (c)). P rior to our work, jarosite-type materials had escaped precise magnetic characterization over the past three decades because they are notoriously difficult to prepare in pure and crystalline forms. These hurdles have been overcome with our development of new redox-based hydrothermal methods . Armed with pure and crystalline materials, several perplexing issues surrounding the magnetic properties of the jarosites have been resolved

74. Exotic Properties Of 'quantum Magnets' Attract Physicists Researchers are still working to understand the exotic magnetic properties of these materials, which are strongly influenced by their quantum nature. http://www.eurekalert.org/pub_releases/2002-03/su-epo030502.php

Public release date: 5-Mar-2002 Contact: Dawn Levy dawnlevy@stanford.edu Stanford University Exotic properties of 'quantum magnets' attract physicists In superconductors, electrons zip around with virtually no resistance or energy loss. In insulators, however, they barely move, lacking the energy to overcome high resistance. Strangely, scientists can turn certain unusual insulators into high-temperature superconductors by adding the right impurities. Conventional theories predict that these insulators should actually be ordinary conductors. Researchers are still working to understand the exotic magnetic properties of these materials, which are strongly influenced by their quantum nature. ``These materials have extremely exotic properties that really have eluded physical description,`` says Martin Greven, an assistant professor in Stanford`s Department of Applied Physics and at the Stanford Synchrotron Radiation Laboratory. ``We are interested in arriving at a quantitative understanding of their magnetic properties.`` With Stanford graduate students Owen Vajk and Patrick Mang and physicists Peter Gehring and Jeffrey Lynn at the National Institute of Standards and Technology (NIST), Greven has been trying to understand the complex magnetic behavior of the insulators as magnetic atoms are randomly replaced with nonmagnetic impurity atoms. Instead of yielding a superconductor, the introduction of nonmagnetic impurities creates a novel model magnet.

75. National Technological University Origin of magnetic properties, measurement of properties, materials, and applications. Paramagnets and diamagnets. Magnetic properties....... Course http://www.ntu.edu/ac/accourse.asp?term_id=0000-1&CID=EP 722-U

76. Science -- Hviid Et Al. 278 (5344): 1768 Magnetic properties Experiments on the Mars Pathfinder Lander Preliminary Results. SF Hviid, MB Madsen, HP Gunnlaugsson, W. Goetz http://www.sciencemag.org/cgi/content/full/278/5344/1768

Science , Vol 278, Issue 5344, 1768-1770 , 5 December 1997 Abstract of this Article PDF Version of this Article ... Download to Citation Manager Alert me when: new articles cite this article Search for similar articles in: Science Online ISI Web of Science PubMed Search Medline for articles by: Hviid, S. F. Vistisen, L. Search for citing articles in: ISI Web of Science (49) HighWire Press Journals This article appears in the following Subject Collections: Planetary Science [DOI: 10.1126/science.278.5344.1768] Previous Article Table of Contents Next ... Article Magnetic Properties Experiments on the Mars Pathfinder Lander: Preliminary Results S. F. Hviid, M. B. Madsen, H. P. Gunnlaugsson, W. Goetz, J. M. Knudsen, R. B. Hargraves, P. Smith, D. Britt, A. R. Dinesen, C. T. Mogensen, M. Olsen, C. T. Pedersen, L. Vistisen Many of the particles currently suspended in the martian atmosphere are magnetic, with an average saturation magnetization /kg (amperes times square meters per kilogram). The particles appear to consist of claylike aggregates stained or cemented with ferric oxide (Fe O ); at least some of the stain and cement is

77. Sabiryanov's Vita alloys. Theory of magnetic properties of hard magnet materials. Theory waves. Investigation of magnetic properties of rare earths. The http://www.physics.unomaha.edu/Sabirianov/RFSVita.html

Renat F. Sabiryanov Education: B.Sc. in Physics, Urals State Technical University, Yekaterinburg, Russia. M.Sc. in Physics, Urals State Technical University, Yekaterinburg, Russia. Ph.D. in Physics and Mathematics, Urals Branch of Russian Academy of Sciences, Yekaterinburg, Russia. Professional experience Staff member, Institute of Chemistry of Solids, Ural Branch of Russian Academy of Sciences, Yekaterinburg, Russia Postdoctoral fellow, Brock University, Canada. Research Ass. and Research Assistant Prof., University of Nebraska, Lincoln,NE. Research Ass., Stanford University, Stanford, CA. 2002-present Assistant Professor, University of Nebraska, Omaha, NE. Research interests and activities Theory of magnetic, magneto-optical, optical, transport, mechanical properties of metals and alloys, magnetic materials, amorphous materials, nanocomposites, quasicrystals. Author of more than 40 articles in refereed journals, 9 invited presentations. Growth of patterned structures at nanoscale. Properties of nanostructures. Micromagnetic modeling. Ab-initio Monte Carlo simulations of magnets at finite temperature. Magneto-optical properties of transition metals and alloys. Theory of magnetic properties of hard magnet materials. Theory of magnetic properties of 3d metals and their alloys, exchange interactions, spin density excitations and waves. Investigation of magnetic properties of rare earths. The effect of topological disorder on the magnetic properties of 3d metals and their alloys. Electronic structure and magnetism of perovskites (CMR materials).Composite materials : Electronic structure of basic materials (nitride, carbides of transition metals, SiC , TiAlN

78. American Scientific Publishers Structure and Magnetic properties of Chemically Ordered Magnetic Binary Alloys in Thin Film Form, Alfonso Cebollada, Spain; RFC Farrow and MF Toney, USA. http://www.aspbs.com/html/a1100mag.htm

EDITED by Hari Singh Nalwa , Formerly of Hitachi Research Laboratory, Hitachi Ltd., JAPAN Magnetic Nanostructures Magnetic Semiconductor Nanostructures, W. Heimbrodt and P. J. Klar, Germany Magnetic Nanostructures for Future Magnetic Data Storage, Axel Carl and Eberhard F. Wassermann, Germany Structure and Magnetic Properties of Chemically Ordered Magnetic Binary Alloys in Thin Film Form, Alfonso Cebollada, Spain; R. F. C. Farrow and M. F. Toney, USA Macroscopic Magnetic Properties of Nanostructures and Nanocomposite Systems, M. Solzi, M. Ghidini and G. Asti, Italy Theory of Brillouin Cross Section from Magnetic Nanostructured Multilayers, R. Zivieri, L. Giovannini, and P. Vavassori, Italy Dynamics of Nanostructured Magnets, Robert Stamps, Australia Off-axis Electron Holography of Nanostructured Magnetic Materials, Rafal Dunin-Borkowski and Martha R. McCartney, UK

79. Faculty Information-G. Markandeyalu JC Ingersoll, G. Markandeyulu, VS Murthy and KVS Rama Rao Structural and magnetic properties of ErPrFe 17x M x M = Ga, Si; x = 0 – 3.5 J. Alloys and http://physics.iitm.ernet.in/faculty/mark.html

Name G. Markandeyulu Designation Associate Professor Group Phone Room HSB 111 Research Interests Magnetism and magnetic materials Email mark at physics.iitm.ac.in Personal Home Page Faculty List Physics Home Recent Publications J. C. Ingersoll, G. Markandeyulu , V. S. Murthy and K. V. S. Rama Rao Structural and magnetic properties of ErPrFe 17-x M x [M = Ga, Si; x = – 3.5] J. Alloys and Compounds., V. R. Shah, G. Markandeyulu , K. V. S. Rama Rao, M. Q. Huang, K. Sirisha and M. E. McHenry Structural and magnetic properties of (Sm 1-x Pr x Ti [x = 0.2, 0.5, 0.8, 1.0] and their nitrides J. Alloys and Compounds, S. Pandian, V. Chandrasekharan, G. Markandeyulu , K. J. L. Iyer and K. V. S. Rama Rao Effect of Al, Cu, Ga and Nb additions on the magnetic and microstructural features of sintered NdFeB J. Appl. Phys., K. V. S. Rama Rao, H. Ehrenberg, G. Markandeyulu , U. V. Varadaraju, M. Venkatesan, K. G. Suresh, V. S. Murty, P. C. Schmidt and H. Fuess On the structural and magnetic properties of R Fe 17-x (A,T) x [R = Rare earth; A = Al, Si, Ga: T = Transition metal] compounds Phys. Stat. Solidi (a)

80. Faculty Information - KVS Rama Rao RAMA RAO Effect of Co, Dy and Ga in modifying the magnetic properties and microstructural features of powder meallurgically processed NdFeB magnets J. Alloys http://physics.iitm.ernet.in/faculty/kvs.html

Name K.V.S. Rama Rao Designation Professor Group Phone Room HSB 106 Research Interests Magnetism and magnetic materials, Hydrogen in metals, Under water acoustics Email kvs at physics.iitm.ac.in Personal Home Page Faculty List Physics Home Publications during last 5 years S. Pandian, V. Chandrasekharan, G. Markandeyulu, K. J. L. Iyer and K. V. S. RAMA RAO Effect of Co, Dy and Ga in modifying the magnetic properties and microstructural features of powder meallurgically processed NdFeB magnets J. Alloys and Compounds. [Accepted for publication] J. Ingersoll, G. Markandeyulu, V. S. Murthy and K. V. S. RAMA RAO Structural and magnetic properties of ErPrFe 17-x M x [M = Ga, Si; x = – 3.5], J. Alloys and Comp. V. R. Shah, G. Markandeyulu, K. V. S. RAMA RAO , M-Q.Huang, K. Sirisha and M. E. McHenry Structural and magnetic properties of (Sm 1-x Pr x Fe Ti [x = 0.2, 0.5, 0.8, 1.0] and their nitrides J. Alloys. Comp. S. Pandian, V. Chandrasekharan, G. Markandeyulu, K. J. L. Iyer and K. V. S. RAMA RAO Effect of Al, Cu, Ga and Nb additions on the magnetic and microstructural features of sintered NdFeB J. Appl. Phys.

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